Journal of Translational Medicine (Aug 2021)

Extracellular vesicle-associated miRNAs are an adaptive response to gestational diabetes mellitus

  • Soumyalekshmi Nair,
  • Dominic Guanzon,
  • Nanthini Jayabalan,
  • Andrew Lai,
  • Katherin Scholz-Romero,
  • Priyakshi Kalita de Croft,
  • Valeska Ormazabal,
  • Carlos Palma,
  • Emilio Diaz,
  • Elizabeth A. McCarthy,
  • Alexis Shub,
  • Jezid Miranda,
  • Eduard Gratacós,
  • Fátima Crispi,
  • Gregory Duncombe,
  • Martha Lappas,
  • H. David McIntyre,
  • Gregory Rice,
  • Carlos Salomon

DOI
https://doi.org/10.1186/s12967-021-02999-9
Journal volume & issue
Vol. 19, no. 1
pp. 1 – 17

Abstract

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Abstract Background Gestational diabetes mellitus (GDM) is a serious public health issue affecting 9–15% of all pregnancies worldwide. Recently, it has been suggested that extracellular vesicles (EVs) play a role throughout gestation, including mediating a placental response to hyperglycaemia. Here, we investigated the EV-associated miRNA profile across gestation in GDM, assessed their utility in developing accurate, multivariate classification models, and determined the signaling pathways in skeletal muscle proteome associated with the changes in the EV miRNA profile. Methods Discovery: A retrospective, case–control study design was used to identify EV-associated miRNAs that vary across pregnancy and clinical status (i.e. GDM or Normal Glucose Tolerance, NGT). EVs were isolated from maternal plasma obtained at early, mid and late gestation (n = 29) and small RNA sequencing was performed. Validation: A longitudinal study design was used to quantify expression of selected miRNAs. EV miRNAs were quantified by real-time PCR (cases = 8, control = 14, samples at three times during pregnancy) and their individual and combined classification efficiencies were evaluated. Quantitative, data-independent acquisition mass spectrometry was use to establish the protein profile in skeletal muscle biopsies from normal and GDM. Results A total of 2822 miRNAs were analyzed using a small RNA library, and a total of 563 miRNAs that significantly changed (p 90%. We identified a set of proteins in skeletal muscle biopsies from women with GDM associated with JAK-STAT signaling which could be targeted by the miRNA-92a-3p within circulating EVs. Interestingly, overexpression of miRNA-92a-3p in primary skeletal muscle cells increase insulin-stimulated glucose uptake. Conclusions During early pregnancy, differently-expressed, EV-associated miRNAs may be of clinical utility in identifying presymptomatic women who will subsequently develop GDM later in gestation. We suggest that miRNA-92a-3p within EVs might be a protected mechanism to increase skeletal muscle insulin sensitivity in GDM.

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